Exact results and holography of Wilson loops in N=2 superconformal (quiver) gauge theories

Using localization, matrix model and saddle-point techniques, we determine exact behavior of circular Wilson loop in N = 2 superconformal (quiver) gauge theories in the large number limit of colors. Focusing at planar and large 't Hooft couling limits, we compare its asymptotic behavior with well-known exponential growth of Wilson loop in N = 4 super Yang-Mills theory with respect to 't Hooft coupling. For theory with gauge group SU(N) coupled to 2N fundamental hypermultiplets, we find that Wilson loop exhibits non-exponential growth - at most, it can grow as a power of 't Hooft coupling. For theory with gauge group SU(N) x SU(N) and bifundamental hypermultiplets, there are two Wilson loops associated with two gauge groups. We find Wilson loop in untwisted sector grows exponentially large as in N = 4 super Yang-Mills theory. We then find Wilson loop in twisted sector exhibits non-analytic behavior with respect to difference of the two 't Hooft coupling constants. By letting one gauge coupling constant hierarchically larger/smaller than the other, we show that Wilson loops in the second type theory interpolate to Wilson loops in the first type theory. We infer implications of these findings from holographic dual description in terms of minimal surface of dual string worldsheet. We suggest intuitive interpretation that in both classes of theory holographic dual background must involve string scale geometry even at planar and large 't Hooft coupling limit and that new results found in the gauge theory side are attributable to worldsheet instantons and infinite resummation therein. Our interpretation also indicates that holographic dual of these gauge theories is provided by certain non-critical string theories.